Marcel Müller scite author profile

In this study which was part of the DISUM-project, 224 ninth graders from 14 German classes from middle track schools (Realschule) were asked about their enjoyment, interest, value and self-efficacy expectations concerning three types of mathematical problems: intra-mathematical problems, word problems and modelling problems. Enjoyment, interest, value and self-efficacy were assessed before and after a ten-lesson teaching unit promoting modelling competency related to the topics "Pythagoras' theorem" and "linear functions". The study aimed to answer the following research questions: (1) Do students' enjoyment, value, interest and self-efficacy expectations differ depending on the type of task? (2) Does the treatment of modelling problems in classroom instruction influence these variables? (3) Are there any differential effects for different ways of teaching modelling problems, including a "directive", teacher-centred instruction and an "operative-strategic", more studentcentred instruction emphasising group work and strategic scaffolding by the teacher? The findings show that there were no differences in students' enjoyment, interest, value and self-efficacy between the three types of tasks. However, teaching oriented towards modelling problems had positive effects on some of the student variables, with the student-centred teaching method producing the most beneficial effects.

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Indoor location tracking in non-line-of-sight environments using a IEEE 802.15.4a wireless network

Röhrig

Müller

2009

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LiFi Positioning for Industry 4.0

Kouhini

Kottke

et al. 2021

IEEE J. Select. Topics Quantum Electron.

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Precise position information is considered as the main enabler for the implementation of smart manufacturing systems in Industry 4.0. In this article, a time-of-flight based indoor positioning system for LiFi is presented based on the ITU -T recommendation G.9991. Our objective is to realize positioning by reusing already existing functions of the LiFi communication protocol which has been adopted by several vendors. Our positioning algorithm is based on a coarse timing measurement using the frame synchronization preamble, similar to the ranging, and a fine timing measurement using the channel estimation preamble. This approach works in various environments and it requires neither knowledge about the beam characteristics of transmitters and receivers nor the use of fingerprinting. The new algorithm is validated through both, simulations and experiments. Results in an 1m × 1m × 2m area indicate that G.9991-based positioning can reach an average distance error of a few centimeters in three dimension. Considering the common use of lighting in indoor environments and the availability of a mature optical wireless communication system using G.9991, the proposed LiFi positioning is a promising new feature that can be added to the existing protocols and enhance the capabilities of smart lighting systems further for the benefit of Industry 4.0.

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5GTANGO: An Approach for Testing NFV Deployments

Twamley¹,

Müller

Bok

et al. 2018

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Silver Bullet for All Trust Issues? Blockchain-Based Trust Patterns for Collaborative Business Processes

Müller

Ostern

Rosemann

2020

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Marcel Müller

Teaching methods for modelling problems and students’ task-specific enjoyment, value, interest and self-efficacy expectations

Indoor location tracking in non-line-of-sight environments using a IEEE 802.15.4a wireless network

LiFi Positioning for Industry 4.0

5GTANGO: An Approach for Testing NFV Deployments

Silver Bullet for All Trust Issues? Blockchain-Based Trust Patterns for Collaborative Business Processes

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